CN101124847B

CN101124847B - Mobile station message having a station class mark field for indicating an MEID capable mobile station

Info

Publication number: CN101124847B
Application number: CN200680005502.7A
Authority: CN
Inventors: R·辛纳拉加; R·帕特沃德哈; L·C·单; E·G·小蒂德曼; W·M·汉迪; B·阿克尔; P·普林斯; B·沙阿; J·W·纳希尔斯基
Original assignee: Qualcomm Inc
Current assignee: Qualcomm Inc
Priority date: 2005-01-14
Filing date: 2006-01-13
Publication date: 2014-09-17
Anticipated expiration: 2026-01-13
Also published as: KR20070103449A; US8036698B2; WO2006076676A1; TWI388237B; US20060194605A1; US20120026981A1; JP4856097B2; JP2008527934A; KR100956122B1; US8565191B2; CN101124847A; EP1836871B1; EP1836871A1; ES2360648T3; ATE502500T1; TW200642490A

Abstract

A mobile station for wireless communication includes a control processor configured to generate a message for transmission on a reverse signaling channel, the message including a Station Class Mark field having a plurality of bits, a portion of the Station Class Mark field indicating that the mobile station is uniquely identified by a Mobile Station Equipment Identifier.

Description

Have be used to indicate MEID can be with the mobile station message of the platform class mark field of travelling carriage

Priority request under 35U.S.C. § 119

The present patent application requires on January 14th, 2005 submit and transfer assignee of the present invention to and quoted clearly thus the provisional application No.60/643 that is entitled as " MEID Deployment Options (MEID disposes selection) " that is contained in this, 976 priority.

The reference of the patent application to common pending trial

The present patent application relates to the U.S. Patent application of following common pending trial: submit to the 30 days November in 2005 of Leslie Chan, application number is 11/291, 678, transfer assignee of the present invention, and quoted clearly " Message Having a First Protocol Revision Field Indicating a Message Format and aSecond Protocol Revision Field Indicating Mandatory Features In a Standards Revision (the thering is the message of the first protocol revision field of Indication message form and the second protocol revision field of the mandatory features of instruction in standard revision) " that be contained in this.

Background

Field

The present invention relates generally to radio communication, relate in particular to cellular radio Communication.

Background

There are many application the communications field, comprises for example paging, wireless local loop, Internet telephony and satellite communication system.A kind of exemplary application is the cell phone system for mobile subscriber.(as used herein, term " honeycomb " system contains honeycomb and personal communication service (PCS) system frequency.) for such cellular system has been developed such as wireless communication system etc. and is designed to allow multiple users to access the Modern Communication System of a shared communication medium.These Modern Communication System can be based on multiple access technology, divide multiple access (PDMA) such as code division multiple access (CDMA), time division multiple access (TDMA), frequency division multiple access (FDMA), space division multiple access (SDMA), the utmost point, or other modulation technique as known in the art.These modulation techniques demodulate are received from multiple users' of a communication system signal, make thus the capacity of this communication system increase to some extent.Be associated therewith, set up various wireless communication systems, comprise for example advanced mobile phone service (AMPS), global system for mobile communications (GSM) and other wireless system.

In FDMA system, total frequency spectrum is divided into multiple less subbands, and each user is given its oneself subband and carrys out access communications medium.Or in tdma system, total frequency spectrum is divided into multiple less subbands, each subband is shared between multiple users, and each user is allowed to use this subband to send in predetermined time slot.Cdma system provides the potential advantages that surpass other type system, comprises the power system capacity of increase etc.In cdma system, each user is given whole frequency spectrum all the time, but by distinguish its transmission with unique word.

Cdma system can be designed to support one or more CDMA standards, such as (1) " the TIA/EIA-95-B travelling carriage-base station compatibility standard of dual mode wideband spread spectrum cellular " (IS-95 standard), (2) provide by being called " third generation partner program " alliance (3GPP), and be embodied in and comprise document No.3G TS25.211, 3G TS 25.212, 3G TS 25.213 and 3G TS 25.214 standard (W-CDMA standard) in one group of interior document, and (3) provide by being called " third generation partner program 2 " alliance (3GPP2), and be embodied in the standard (IS-2000 standard) in " the TR-45.5 physical layer standard of cdma2000 spread spectrum system ".

In the cdma communication system of enumerating above and standard, usable spectrum is shared simultaneously between multiple users, and suitable technology can be used for providing service, such as voice-and-data service etc.

The binary number of current use Electronic Serial Number (ESN)---one 32 bits identifies each travelling carriage of being manufactured by each travelling carriage manufacturer uniquely.In view of the surge of the travelling carriage such as such as cell phone use, ESN may finally can be depleted, therefore a kind of new uniqueness Mobile Station Identifier that is called mobile station equipment identifier (MEID) has been developed and standardization, and this identifier is one 56 bit numbers.MEID is one of mandatory features in the revision D of IS-2000 standard family.IS-2000 standard family comprises revision or the issue of the IS-2000 standard of above-mentioned original employing.Such revision comprises revision 0, A, B, C and D.The leading IS-2000 standard of disposing is at present IS-2000 revision 0, and for radio honeycomb operator can be disposed follow-up revisions such as revision D, must carry out consuming time and expensive interoperability manipulation and test to guarantee travelling carriage and revision 0, A, B and C backward compatibility, and network needs suitable upgrading.But ESN just may be depleted before this class testing and network upgrade complete.

Summary

In one aspect, a kind of travelling carriage for radio communication is disclosed.This travelling carriage comprises the control processor that is configured to generate the message for transmitting on reverse signalling channel, this message comprises the platform class mark field with multiple bits, and a part for this class mark field indicates this travelling carriage to be identified uniquely by a mobile station equipment identifier.

A kind of method of operate wireless travelling carriage is disclosed in yet another aspect.The method comprises the message generating for transmitting on reverse signalling channel, and this message comprises the platform class mark field with multiple bits, and a part for this class mark field indicates this travelling carriage to be identified uniquely by a mobile station equipment identifier.

In yet another aspect, disclose a kind of machine readable media of include instruction, these instructions make this machine executable operations in radio mobile station in the time being carried out by machine.These operations comprise the message generating for transmitting on reverse signalling channel, and this message comprises the platform class mark field with multiple bits, and a part for this class mark field indicates this travelling carriage to be identified uniquely by a mobile station equipment identifier.

Aspect another, a kind of travelling carriage for radio communication is disclosed.This travelling carriage comprises: the device that generates the message for transmitting on reverse signalling channel, this message comprises the platform class mark field with multiple bits, and a part for this class mark field indicates this travelling carriage to be identified uniquely by a mobile station equipment identifier; And for transmit the device of this message on this reverse signalling channel.

In yet another aspect, a kind of base station for radio communication is disclosed.This base station comprises and is configured to the receiver from a travelling carriage receipt message on reverse signalling channel, this message comprises the platform class mark field with multiple bits, and a part for this class mark field indicates this travelling carriage to be identified uniquely by a mobile station equipment identifier.

In yet another aspect, a kind of method that operates base station is disclosed.The method is included on reverse signalling channel from a radio mobile station receipt message, and this message comprises the platform class mark field with multiple bits, and a part for this class mark field indicates this travelling carriage to be identified uniquely by a mobile station equipment identifier.

In yet another aspect, disclose a kind of machine readable media of include instruction, these instructions make this machine executable operations in base station in the time being carried out by machine.These operations are included on reverse signalling channel from a travelling carriage receipt message, and this message comprises the platform class mark field with multiple bits, and a part for this class mark field indicates this travelling carriage to be identified uniquely by a mobile station equipment identifier.

In yet another aspect, a kind of base station for radio communication is disclosed.This base station comprises: for the device from a travelling carriage receipt message on reverse signalling channel, this message comprises the platform class mark field with multiple bits, and a part for this class mark field indicates this travelling carriage to be identified uniquely by a mobile station equipment identifier; And for send the device of a status request message to this travelling carriage on forward signaling channel, this status request message comprises the request of the mobile station equipment identifier to this travelling carriage.

Brief Description Of Drawings

Fig. 1 is an a kind of example of wireless communication system;

Fig. 2 is the block diagram of radio mobile station according to an embodiment of the invention;

Fig. 3 is the block diagram of base station according to an embodiment of the invention;

Fig. 4 is the call setup figure between radio mobile station according to an embodiment of the invention and base station;

Fig. 5 A is mobile-originated message according to an embodiment of the invention;

Fig. 5 B is the platform class mark field of Fig. 5 A;

Fig. 6 A is base station according to an embodiment of the invention status request message;

Fig. 6 B is mobile station state response message according to an embodiment of the invention or extended status response message;

Fig. 6 C is the MEID information recording that can be included in status response message or the extended status response message of Fig. 6 B;

Fig. 7 is the flow chart of the process that can be realized by radio mobile station according to an embodiment of the invention;

Fig. 8 is the flow chart of the process that can be realized by base station according to an embodiment of the invention;

Fig. 9 A is MECAM message according to an embodiment of the invention; And

Fig. 9 B is MUHDM message according to an embodiment of the invention.

Illustrate

Use word " exemplary " to represent " playing example, example or illustration " herein.Be described as " exemplary " any embodiment herein and not necessarily will be interpreted as being better than or being better than other embodiment.

Can be mobile or fixing also referred to as the remote station of travelling carriage (MS), access terminal (AT), subscriber equipment (UE) or subscriber unit, and can with one or more base station communications also referred to as base transmitting-receiving station (BTS) or Node B.Remote station by one or more base stations to the bag that transmits and receive data also referred to as the base station controller of radio network controller (RNC).Base station and base station controller are a kind of parts of the network that is called Access Network.Access Network transports packet between multiple remote station.Access Network also can be connected to other network in this Access Network outside, such as company's Intranet or internet, and can between each remote station and this type of external network, transport packet.Set up with one or more base stations the remote station that active traffic channel is connected and be called as active remote platform, and be called in trafficwise.Be known as in being connected the state of foundation in the remote station of setting up in active traffic channel connection procedure with one or more base stations.Remote station can be any data equipment of communicating by letter by wireless channel.Remote station can also be any in plurality of devices permitted including PC card, compact flash memory, external or internal modem or radio telephone, but is not limited to this.By it, the communication link to base station transmitted signal is called up link to remote station, also referred to as reverse link.By it, the communication link to remote station transmitted signal is called down link in base station, also referred to as forward link.

Referring to Fig. 1, example wireless communications 100 comprises one or more radio mobile stations (MS) 102, one or more base station (BS) 104, one or more base station controller (BSC) 106 and core net 108.Core net can be connected to internet 110 and public switch telephone network (PSTN) 112 via suitable backhaul.Wireless communication system 100 can adopt any in many multiple access technologies, divides multiple access (PDMA) or other modulation technique as known in the art such as code division multiple access (CDMA), time division multiple access (TDMA), frequency division multiple access (FDMA), space division multiple access (SDMA), the utmost point.

Referring to Fig. 2,5A-5B, in one embodiment, comprise the control processor 202 that is configured to generate the message for transmitting on reverse signalling channel for the travelling carriage 102 of radio communication, this message comprises the platform class mark field with multiple bits, and a part for this class mark field indicates this travelling carriage to be identified uniquely by a mobile station equipment identifier.Travelling carriage 102 comprises transmitter 200, modulator 206, receiver 204, demodulator 208 and the antenna 210 that its function is known in the art.

In one embodiment, this message is originating information 500 as shown in Figure 5 A, and this originating information 500 comprises having multiple bits---such as 8 bits---platform class mark (SCM) field 508.In one embodiment, a part for SCM field 508 is used to refer to travelling carriage 102 and is identified uniquely by a mobile station equipment identifier (MEID), and in the embodiment shown in Fig. 5 B, the 4th bit 522 is set as bit 1 to indicate this travelling carriage to be identified uniquely by a MEID.In alternative embodiment, this message can be page-response message, registration message, status response message or extended status response message.Continue Fig. 5 A, originating information 500 comprises that it is described in various other field as known in the art, such as mobile terminating call out accept designator (MOB_TERM) field 502, time slot loop index (SLOT_CYCLE_INDEX) field 504, mobility protocol revision (MOB_P_REV) field 506 ... reservation bit (RESERVED) field 516 and oppositely basic gate mode request designator (REV FCH GATING REQ) field 520.

Referring to Fig. 4,5A and 6A-6B, show according to an embodiment of the invention such as the radio mobile station of travelling carriage 102 and such as the call setup Figure 40 0 between the base station of base station 104.In step 402, travelling carriage 102 above sends originating information 500 or alternatively sends page-response message at reverse shared signaling channel (r-csch) to base station 104.Originating information 500 comprises IMSI+pESN (international mobile subscriber identity and pseudo-esn) and SCM 508, and wherein the bit 4 of SCM 508 is set as 1.Base station 104 optionally above sends one to travelling carriage 102 at forward direction shared signaling channel (f-csch) and comprises the status request message (explanation after a while) that MEID asks, and travelling carriage 102 sends an extended status response message (explanation after a while) on r-csch to base station 104, this is represented by these steps in 404.This extended status response message comprises the MEID of travelling carriage 102.In an alternative embodiment, comprise that the status request message of MEID request can send Forward Dedicated Signaling Channel (f-dsch) is upper, and the status response message with MEID can send Reverse Dedicated Signaling Channel (r-dsch) is upper.

Continue Fig. 4, in step 406, base station 104 sends a MECAM (MEID extended channel assignment message) message on f-csch, and this MECAM message comprises various fields such as PLCM_TYPE_INCL, PLCM_TYPE and PLCM_39 (explanation after a while).The 408 interior traffic channel initialization steps of having described, these steps comprise: base station 104 is applicable to making travelling carriage 102 can obtain the signal of this forward link upper transmission of forward dedicated traffic channel (f-dtch); After travelling carriage obtains forward link, travelling carriage 102 above sends a preamble to base station 104 at reverse dedicated traffic channel (r-dtch); After obtaining reverse link, base station 104 sends a BS to travelling carriage 102 and confirms (ACK) order on f-dsch; And travelling carriage 102 above sends a MS ACK order at Reverse Dedicated Signaling Channel (r-dsch) to base station 104.Then as by the step in 401 indicate and send service connection message, these steps comprise: base station 104 sends a service connection message to travelling carriage 102 on f-dsch; Travelling carriage 102 and then send a service to base station 104 connected message on r-dsch.In step 412, on forward direction and reverse two link directions, all set up traffic channel (f-dtch, r-dtch).In one embodiment, in step 414, base station 104 can be on f-dsch sends a MUHDM (the general handover Indication message of MEID) so that carry out and the handoff operation of another base station to travelling carriage 102.

Continue Fig. 6 A and 6B, show according to one embodiment of present invention status request message 600 and status response message or extended status response message 640.Status request message 600 comprises various field, such as the RECORD_TYPE field 610 that is used to indicate the QUAL_INFO_TYPE field 602 of membership information type, the desired value that is used to indicate the QUAL_INFO_LEN field 604 of qualification information length and depends on this 8 bit field and is used to indicate the MEID request to travelling carriage.Status response message or extended status response message 640 comprise various layer 3 field, such as QUAL_INFO_TYPE field 642, the QUAL_INFO_LEN field 644 that is used to indicate qualification information length, TYPE-SPECIFIC FIELDS (type specific field) field 646, RECORD_TYPE field 648, RECORD_LEN field 649 and have the TYPE-SPECIFIC FIELDS field 650 of the MEID value of the travelling carriage that sends status response message 640.Field 648,649 and 650 can be replicated as required.In one embodiment, if RECORD_TYPE field 648 has decimal value 39, RECORD_LEN field 649 has decimal value 8, and field 650 comprises the MEID information as shown in Fig. 6 C, Fig. 6 C illustrate there is MEID_LEN field 682, the MEID information recording 680 of MEID field (56 bit) 684 and RESERVED field 686, wherein to have 4 bits be 0 to RESERVED field 686 entirely.In one embodiment, on Reverse Dedicated Signaling Channel, use status response message.In another embodiment, oppositely on shared signaling channel, using the extended status response message having with layer 3 form identical shown in Fig. 6 B.

With reference to figure 7, show the flow chart of the process 700 that can be realized by travelling carriage 102 according to an embodiment of the invention.Process 700 comprises: in 702 generations one for the message that transmits on reverse signalling channel (for example, originating information 500), this message comprises the platform class mark field with multiple bits, and a part for this class mark field indicates this travelling carriage to be identified uniquely by a mobile station equipment identifier; Send message 500 704 to base station 104; 706 on forward signaling channel from base station 104 accepting state request messages 600; And 708, send the status response message 640 with MEID to base station 104.710, travelling carriage 102 receives a MECAM message on forward signaling channel from base station 104, and 712, travelling carriage 102 can receive a MUHDM message (after a while explanation) so that carry out and the handoff operation of another base station on forward signaling channel from base station 104.

With reference to figure 3, in one embodiment, base station 104 for radio communication comprises the receiver 304 that is configured to receive from travelling carriage a message on reverse signalling channel, this message comprises the platform class mark field with multiple bits, and a part for this class mark field indicates this travelling carriage to be identified uniquely by a mobile station equipment identifier.In one embodiment, this message is originating information 500 as shown in Figure 5 A, and it comprises having multiple bits---such as 8 bits---platform class mark (SCM) field 508.In the embodiment shown in Fig. 5 B, the logical one (" 1 ") being represented by the 4th bit 522 is used to refer to travelling carriage 102 and is identified uniquely by a mobile station equipment identifier (MEID).In alternative embodiment, this message can be page-response message, registration message, status response message or extended status response message.

Continue Fig. 3, base station 104 comprises the modulator 306 that its function is known in the art, interface 308, transmitter 300, control processor 302, demodulator 310 and the antenna 312 for communicating by letter with the BSC of all BSC106 as shown in Figure 1.Transmitter 300 is configured to send a status request message 600 to travelling carriage on forward signaling channel, and status request message 600 comprises the request of the mobile station equipment identifier to travelling carriage.In one embodiment, the transmitter and receiver in travelling carriage or base station can be the assembly separating as shown in Figure.In another embodiment, the transmitter and receiver in travelling carriage or base station can be the single component that is referred to as " transceiver ".

With reference to figure 8, show the flow chart of the process 800 that can be realized by base station 104 according to an embodiment of the invention.Process 800 comprises: 802, on reverse signalling channel, receive a message from travelling carriage, this message comprises the platform class mark field with multiple bits, and a part for this class mark field indicates this travelling carriage to be identified uniquely by a mobile station equipment identifier; On forward signaling channel, send a status request message to this travelling carriage 804, this status request message comprises the request of the MEID to travelling carriage; And 806, receive a status response message from this travelling carriage.808, base station 104 sends a MECAM message on forward signaling channel; And 810, on forward signaling channel, send a MUHDM message.

With reference to figure 9A, show the MECAM message 900 that can be sent to travelling carriage 102 (seeing Fig. 1) by base station 104 according to an embodiment of the invention.MECAM message 900 is to issue the mode that D ECAM message is identical formatted with CDMA 2000, and comprises: the extended channel assignment message field 902 conforming to CDMA 2,000 0 standard of issuing; For covering the reservation bit of issuing A, distribution B and the fixed number of at least one extended channel assignment message field conforming to (904,906,908) of distribution C standard with CDMA 2000; And mark distribute to public long code mask type (PLCM_TYPE) field of travelling carriage for traffic call, this PLCM_TYPE field is one of various PLCM relevant fields by 910 expressions.In the embodiment shown in Fig. 9 A, reservation bit (for example, bit 0) 904-908 represents to issue for CDMA 2000 the ECAM field of A, B and C.For example, MECAM message can comprise 0 of 2 bits or 5 bits in field 904, does not comprise information in field 906, and in field 908, can have 1 bit to be set as 0.In addition, if PLCM_TYPE INCL is bit 1, PLCM_TYPE field is included, one of a few types such as it can distribute such as BS, PLCM based on MEID's or based on IMSI.The PLCM conflict that can occur based on pseudo-ESN in the situation that at PLCM is avoided in the use of these PLCM types.In the embodiment shown in Fig. 9 A, [PLCM_39] field represents that this PLCM is the PLCM that BS distributes.If PLCM_TYPE INCL field is bit 0, ensuing two follow-up PLCM relevant fields are not included in this message.

Referring to Fig. 9 B, show the MUHDM message 940 that can be sent to travelling carriage 102 (seeing Fig. 1) by base station 104 according to an embodiment of the invention.MUHDM message 940 is to issue the mode that D UHDM message is identical formatted with CDMA 2000, and comprises: the general handover Indication message field 942 conforming to CDMA 2,000 0 standard of issuing; Cover with CDMA 2000 and issue A, issue the reservation bit of B and the fixed number of at least one the general handover Indication message field (944,946,948) conforming in distribution C standard; And mark distribute to travelling carriage for carrying out and public long code mask type (PLCM_TYPE) field of the public long code mask of the handoff operation of another base station, PLCM_TYPE field is one of various PLCM relevant fields by 950 marks.In the embodiment shown in Fig. 9 B, reservation bit (for example, bit 0) 944-948 represents to issue for CDMA 2000 the UHDM field of A, B and C.For example, MUHDM message can comprise and in field 946, not comprise any in 2 to 7 bits 0 information, and in field 948, can have 6 bits to be all made as 0 in field 944.In addition, if PLCM_TYPE INCL is bit 1, PLCM_TYPE field is included, the one in a few types such as it can distribute such as BS, PLCM based on MEID's or based on IMSI.The contingent PLCM conflict in based on pseudo-ESN situation at PLCM is avoided in the use of these PLCM types.In the embodiment shown in Fig. 9 B, PLCM_39 represents that this PLCM is the PLCM that a BS distributes.If PLCM_TYPE INCL field is bit 0, next two follow-up PLCM relevant fields are not included in this message.

In another aspect of the present invention, a kind of machine readable media of include instruction is disclosed, these instructions make this machine executable operations in radio mobile station in the time being carried out by machine.These operations comprise the message generating for transmitting on reverse signalling channel, and this message comprises the platform class mark field with multiple bits, and a part for this class mark field indicates this travelling carriage to be identified uniquely by a mobile station equipment identification number.

In one embodiment, this machine readable media can be the medium based on dish such as CD-ROM etc.

Aspect another, a kind of travelling carriage for radio communication is disclosed of the present invention.This travelling carriage comprises: for being created on the device of the message transmitting on reverse signalling channel, this message comprises the platform class mark field with multiple bits, and a part for this class mark field indicates this travelling carriage to be identified uniquely by a mobile station equipment identifier; And for transmit the device of this message on this reverse signalling channel.This generation can comprise as example control processor 202 as shown in Figure 2 suitably with device, and this transmission can comprise also transmitter 200 as shown in Figure 2 suitably with device.

Aspect another, disclose a kind of machine readable media of include instruction of the present invention, these instructions make this machine executable operations in base station in the time being carried out by machine.These operations are included on reverse signalling channel from travelling carriage receipt message, and this message comprises the platform class mark field with multiple bits, and a part for this class mark field indicates this travelling carriage to be identified uniquely by a mobile station equipment identifier.

Aspect another, a kind of base station for radio communication is disclosed of the present invention.This base station comprises: for the device from travelling carriage receipt message on reverse signalling channel, this message comprises the platform class mark field with multiple bits, and a part for this class mark field indicates this travelling carriage to be identified uniquely by a mobile station equipment identifier; And for the device to this travelling carriage delivery status request message on forward signaling channel, this status request message comprises the request of the mobile station equipment identifier to travelling carriage.This reception can comprise the receiver 304 shown in Fig. 3 suitably with device, and this transmission can comprise also transmitter 300 as shown in Figure 3 suitably with device.

Those skilled in the art it will be appreciated that, information and signal can be with any expressions the in various technology and skill.For example, running through data, instruction, order, information, signal, bit, code element and the chip that above explanation may be quoted can be represented by voltage, electric current, electromagnetic wave, magnetic field or magnetic particle, light field or light particle or its any combination.

Those of skill in the art also will appreciate that, can be implemented as electronic hardware, computer software or both combinations in conjunction with various illustrative logical blocks, module, circuit and the algorithm steps of embodiment explanation disclosed herein.For this interchangeability of hardware and software is clearly described, illustrate with the form of its function as above various Illustrative components, piece, module, circuit and step 1.Such function is implemented as hardware or software depends on specific application and is applied to the design constraint in whole system.Those skilled in the art can realize described function by different modes for every kind of application-specific, but this type of is realized decision-making and should not be interpreted as to cause and depart from the scope of the present invention.

Various illustrative components, blocks, module and the circuit of describing in conjunction with embodiment disclosed herein can anyly be designed to carry out the combination of described function herein and realize or execution by general processor, digital signal processor (DSP), application-specific integrated circuit (ASIC) (ASIC), field programmable gate array (FPGA) or other programmable logic device, discrete gate or transistor logic, discrete hardware components or its.General processor can be microprocessor, but alternatively, this processor can be processor, controller, microcontroller or the state machine of any routine.Processor also can be implemented as the combination of computing equipment, for example, the combination of DSP and microprocessor, multi-microprocessor, with one or more microprocessors or any other this type of configuration of DSP central cooperation.

In conjunction with the method for embodiment disclosed herein explanation or the step of algorithm can be directly with hardware, the software module carried out by processor or the two combination implement.Software module can reside in the storage medium of RAM memory, flash memory, ROM memory, eprom memory, eeprom memory, register, hard disk, removable dish, CD-ROM or any other form as known in the art.Exemplary storage medium is coupled to processor, thereby processor can be from this read information or to its writing information.In alternative, storage medium can be formed an entirety with processor.Processor and storage medium can reside in ASIC.This ASIC can reside in user terminal.In alternative, processor and storage medium can be used as discrete assembly and reside in user terminal.

It is in order to make any person skilled in the art can both make or use the present invention that the above explanation to disclosed embodiment is provided.The various amendments of these embodiment are easy to those skilled in the art can be apparent, and general principle as defined herein can be applied to other embodiment and can not depart from the spirit or scope of the present invention.Therefore, the present invention is not intended to be defined to shown embodiment herein, but should conform to the scope of the broad sense consistent with novel feature with principle disclosed herein.

Claims

1. a method for operate wireless travelling carriage, comprising:

The message of generation one for transmitting on reverse signalling channel, described message comprises that one has the platform class mark field of multiple bits, a part for described class mark field indicates described travelling carriage to be identified uniquely by a mobile station equipment identifier MEID.

2. the method for claim 1, is characterized in that, further comprises:

On a forward signaling channel, receive a status request message;

On reverse signalling channel, transmit a status response message in response to described status request message, described status response message comprises described mobile station equipment identifier.

3. method as claimed in claim 2, is characterized in that, described status response message is extended status response message, and is reverse shared signaling channel for transmitting the described reverse signalling channel of described extended status response message.

4. method as claimed in claim 2, is characterized in that, is Reverse Dedicated Signaling Channel for the described reverse signalling channel that transmits described status response message.

5. the method for claim 1, is characterized in that, further comprises:

On forward signaling channel, receive a MEID extended channel assignment message, described MEID extended channel assignment message comprises:

The extended channel assignment message field conforming to CDMA2000 0 standard of issuing;

For covering the reservation bit with the fixed number of at least one extended channel assignment message field conforming to of distribution C standard with CDMA2000 distribution A, distribution B; And

Mark is distributed to the public long code mask type field of described travelling carriage for the public long code mask of traffic call.

6. method as claimed in claim 5, is characterized in that, further comprises:

On forward signaling channel, receive the general handover Indication message of a MEID, the general handover Indication message of described MEID comprises:

The general handover Indication message field conforming to CDMA2000 0 standard of issuing;

For covering the reservation bit with the fixed number of at least one general handover Indication message field conforming to of distribution C standard with CDMA2000 distribution A, distribution B; And

Mark is distributed to the public long code mask type field of described travelling carriage for the public long code mask of handoff operation.

7. the method for claim 1, is characterized in that, described reverse signalling channel is reverse shared signaling channel.

8. the method for claim 1, is characterized in that, described message is to select in the middle of the group from comprising originating information, page-response message, registration message, status response message and extended status response message.

9. for a travelling carriage for radio communication, described travelling carriage comprises:

For generate the device of the message transmitting on reverse signalling channel, described message comprises that one has the platform class mark field of multiple bits, and a part for described class mark field indicates described travelling carriage to be identified uniquely by a mobile station equipment identifier MEID; And

For transmit the device of described message on described reverse signalling channel.

10. travelling carriage as claimed in claim 9, is characterized in that, described reverse signalling channel is reverse shared signaling channel.

11. travelling carriages as claimed in claim 9, is characterized in that, further comprise:

For receive the device of a MEID extended channel assignment message on forward signaling channel, described MEID extended channel assignment message comprises:

12. travelling carriages as claimed in claim 11, is characterized in that, further comprise:

For receive the device of the general handover Indication message of a MEID on forward signaling channel, the general handover Indication message of described MEID comprises:

13. travelling carriages as claimed in claim 9, is characterized in that, described message is to select the group from comprising originating information, page-response message, registration message, status response message and extended status response message.

14. travelling carriages as claimed in claim 9, is characterized in that, further comprise:

For be created on the device of the status response message transmitting on reverse signalling channel in response to the status request message receiving on forward signaling channel, described status response message comprises described mobile station equipment identifier.

15. travelling carriages as claimed in claim 14, is characterized in that, described status response message is extended status response message, and are reverse shared signaling channels for transmitting the reverse signalling channel of described extended status response message.

16. travelling carriages as claimed in claim 14, is characterized in that, are Reverse Dedicated Signaling Channels for the described reverse signalling channel that transmits described status response message.

17. 1 kinds operate the method for base station, comprising:

On reverse signalling channel, from a radio mobile station receipt message, described message comprises the platform class mark field with multiple bits, and a part for described class mark field indicates this travelling carriage to be identified uniquely by a mobile station equipment identifier MEID.

18. methods as claimed in claim 17, is characterized in that, further comprise:

On forward signaling channel, transmit a status request message to described travelling carriage, described status request message comprises the request of the mobile station equipment identifier to described travelling carriage.

19. methods as claimed in claim 18, is characterized in that, are forward direction shared signaling channels for transmitting the described forward signaling channel of described status request message.

20. methods as claimed in claim 18, is characterized in that, are Forward Dedicated Signaling Channels for the described forward signaling channel that transmits described status request message.

21. methods as claimed in claim 17, is characterized in that, further comprise:

On forward signaling channel, transmit a MEID extended channel assignment message, described MEID extended channel assignment message comprises:

22. methods as claimed in claim 21, is characterized in that, further comprise:

On forward signaling channel, transmit the general handover Indication message of a MEID, the general handover Indication message of described MEID comprises:

23. methods as claimed in claim 17, is characterized in that, described reverse signalling channel is reverse shared signaling channel.

24. methods as claimed in claim 17, is characterized in that, described message is to select the group from comprising originating information, page-response message, registration message, status response message and extended status response message.

25. 1 kinds of base stations for radio communication, described base station comprises:

For the device from a travelling carriage receipt message on reverse signalling channel, described message comprises the platform class mark field with multiple bits, and a part for described class mark field indicates described travelling carriage to be identified uniquely by a mobile station equipment identifier MEID; And

For send the device of a status request message to described travelling carriage on forward signaling channel, described status request message comprises the request of the mobile station equipment identifier to described travelling carriage.

26. base stations as claimed in claim 25, is characterized in that, described reverse signalling channel is reverse shared signaling channel.

27. base stations as claimed in claim 25, is characterized in that, further comprise:

For transmit the device of a MEID extended channel assignment message on forward signaling channel, described MEID extended channel assignment message comprises:

28. base stations as claimed in claim 27, is characterized in that, further comprise:

For transmit the device of the general handover Indication message of a MEID on forward signaling channel, the general handover Indication message of described MEID comprises:

29. base stations as claimed in claim 25, is characterized in that, described message is to select in the middle of the group from comprising originating information, page-response message, registration message, status response message and extended status response message.

30. base stations as claimed in claim 29, is characterized in that, are forward direction shared signaling channels for transmitting the described forward signaling channel of described status request message.

31. base stations as claimed in claim 29, is characterized in that, are Forward Dedicated Signaling Channels for the described forward signaling channel that transmits described status request message.